Page 313 - Computational Modeling in Biomedical Engineering and Medical Physics
P. 313
302 Index
Single dispersion Cole model, 146 of kidney tumor, 255
Single-dispersion Cole Cole relaxation model, Thermal analysis in mild hyperthermia of soft
147 tissue, 271 275
Sinoatrial node (SA node), 83, 93 96 Thermal diffusivity, 16 17
Slow action potential (slow AP), 95 96 Thermionic trigger, 45 46
Solid model, 72 73 Thermodynamic properties, 2
Spatial allotment, 46 Thermodynamics with finite speed (TFS), 62
Spatial pattern, 43 Thermotherapy methods, 249 253
Specific absorption rate (SAR), 6 7 ablation, 252 253
Spectral analysis, 13 hyperthermia, 249 252
Sphere-shaped vessel wall deformations, 79 80 Thoracic bioimpedance method, 148
Sphygmomanometer, 119 cardiometry method, 150 152
Spinal cord EVM, 150 152
harm, 219 and models, 149 152
magnetic stimulation of, 230 234 TEB, 149 150
lumbar magnetic stimulation modeling, Thoracic electrical bioimpedance (TEB), 149 150
230 233 Thought experiment, 1
numerical simulation results, 233 234 Three dimensional-smoothed mask (3D-smoothed
Spine, 219 mask), 78
Split, merge, and build, 85 Three-energy equations, 26
State of system, 2 Three-temperature bioheat model, 26
Stimulation, 21 Threshold tools, 85
Streamwise magnetic force, 189 Tikhonov regularization, 100 102
Stroke volume, 151 Time
Superior vena cava (SVC), 95 constants of relaxation processes, 279
Superpparamagnetic iron oxide nanoparticles and space scales, 16 20
(SPIONs), 174 176 time-harmonic MF, 241
synthesis, coating, and functionalization, time-variable magnetic fields, 239
176 177 Tonometry, 118
Surroundings, 2 Total stream-wise force, 191
Survivor, 176 177 Transbrachial electrical bioimpedance velocimetry
Sympathetic nerves, 96 (TBEVM), 161
Synoviocytes, 195 196 Transcranial electrical stimulation (TES), 218
System, 2 3 Transcranial magnetic stimulation (TMS),
Systemic vascular resistance (SVR), 150 217 219, 234 239
Systole, 95 modeling, 235 237
Systolic blood pressure (SBP), 118 numerical simulation results, 237 239
Systolic CAP, 119 Transfer function (TF), 120 121
Systolic pressure (SP), 116 117 Transmembrane true voltage, 222 223
Transmembrane voltage, 105
T Transmission problems, 13
T wave, 97 Transport time scale, 18
Target control, 266 Tree, 44
Telegraphist’s equation, 105 106 Tubules, 256
Temperature control, 266 Turing’s model, 43
Temperature-dependent dielectric properties, Twin electric circuit, 135
275 277 Two dimensional action potential propagation,
Thermal ablation (TA), 250, 252 108 111
